Dermatology: Practical and Conceptual


Observation  |  Dermatol Pract Concept 2014;4(4):19 85

DERMATOLOGY PRACTICAL & CONCEPTUAL
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Introduction

Ophthalmomyiasis, also known as ocular myiasis, is the 

infestation of the eye or periorbital tissue by larvae of the 

insect order Diptera. When larvae remain outside the eye it 

is called ophthalmomyiasis externa, while penetration of the 

eye is termed ophthalmomyiasis interna. The latter is caused 

by the larvae of Dermatobia hominis, which can cause also 

blindness. Ophthalmomyiasis externa in humans is often 

caused by the larvae of the sheep nasal botfly, Oestrus ovis, 

and the Russian botfly, Rhinoestrus purpureus, which are 

found in sheep farming communities. Often the victims have 

the sensation of being struck by a foreign body or insect. Soon 

thereafter a painful inflammation develops, causing an acute 

catarrhal conjunctivitis [1,2].

Oestrus ovis is a cosmopolitan fly whose females are 

larviparous, depositing a number of first instar larvae on the 

edge of, or just inside the nostrils of sheep and goats, while 

still in flight, whereas infestation in humans is rare [3].

Ophthalmomyiasis produced in humans by O. ovis larvae 

is restricted to conjunctivae, sclera, eyelids, and lacrimal duct 

(external ophthalmomyiasis) or the eyeball (internal ophthal-

momyiasis). Hallmarks of this condition are a typical history 

associated with severe local conjunctival inflammation with 

Diagnosis of ophthalmomyiasis externa 
by dermatoscopy

Sody A. Naimer 1, Kosta Y. Mumcuoglu2

1 Department of Family Medicine, Siaal Research Center for Family Medicine and Primary Care Research; Faculty of Health Sciences, Ben-

Gurion University of the Negev, Beer-Sheva; Elon Moreh Clinic, Clalit Health Services, Shomron district, Lev Shomron, Israel

2 Parasitology Unit, Department of Microbiology and Molecular Genetics, The Kuvin Center for the Study of Infectious and Tropical 

Diseases, The Hebrew University—Hadassah Medical School, Jerusalem, Israel

Keywords: Oestrus ovis, ophthalmomyiasis externa, conjunctivitis, dermatoscopy

Citation: Naimer SA, Mumcuoglu KY. Diagnosis of ophthalmomyiasis externa by dermatoscopy. Dermatol Pract Concept. 2014;4(4):19. 
http://dx.doi.org/10.5826/dpc.0404a19

Received: June 1, 2014; Accepted: August 30, 2014; Published: October 31, 2014

Copyright: ©2014 Naimer et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, 
which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Funding: None.

Competing interests: The authors have no conflicts of interest to disclose.

All authors have contributed significantly to this publication.

Corresponding author: Dr. Sody Naimer, Department of Family Medicine, Ben-Gurion University of the Negev, POB 653, Beer-Sheva 
84105, Israel. Tel. +972.8.6477433; Fax. +972.8.6477623. Email: sodyna@clalit.org.il

Ophthalmomyiasis in humans caused by the larvae of the sheep nasal botfly (Oestrus ovis) and is a 
rare phenomenon in Israel. We describe the utilization of the dermatoscope as a diagnostic tool for 
the facilitation of early diagnosis of conjunctivitis due to the infestation of the eyes by the sheep nasal 
botfly in two patients. After the physical removal of the larvae with the help of a cotton swab applica-
tor under a slit lamp examination and the topical use of antibiotics, the clinical symptoms improved 
within 1-2 days. Undoubtedly the dermatoscope played a crucial role leading to the definitive diagno-
sis and immediate therapeutic intervention.

ABSTRACT



86 Observation  |  Dermatol Pract Concept 2014;4(4):19

of the organisms precluded their removal under these condi-

tions and therefore the patient was referred for a slit lamp 

examination at the emergency department of Beilinson Hos-

pital, where 14 additional larvae were removed from the eye. 

The patient was released after application of chloramphenicol 

eye ointment with ocular covering.

The following day he reported a sensation of something 

moving in the left posterior nasal region later migrating to the 

back of his throat. After intensive water gargling, all symptoms 

resolved and the eye recovered without any further sequelae.

Case 2
A 17-year- old teenager arrived at the clinic after spending 

the prior night and day hiking the Hevron mountains. He 

recalled that previous day he had the sensation of suddenly 

being struck in the face by a fly. His left eye gradually became 

more and more irritated and he felt something moving around 

inside his eye. The findings were similar to those in the patient 

in Case 1, except that in this patient, the time lapse between 

the infestation and diagnosis led to substantial accumulation 

of purulent secretion which hindered clear visualization of the 

complete conjunctival surface. Upon examination with the 

dermatoscope, the smartphone screen displayed a number of 

larvae wriggling over the cornea and bulbar surface trying to 

evade discovery (Figure 2). At the Kedumim Family Health 

Center, 15 larvae were manually removed with the tip of a 

a foreign body sensation, photophobia, lacrimation, erythema 

and marked periorbital edema. The patient may have the rare 

complaint of a sensation of motion within the eye [4-6].

In Israel, cases of ophthalmomyiasis caused by O. ovis 

have been reported [7-9]. In addition, Yeruham et al. [10] 

reported the case of a pharyngeal myiasis, while Mumcuoglu 

and Eliashar [11] reported a case of nasal myiasis caused by 

the larvae of this species.

We describe the utilization of the dermatoscope as a 

diagnostic tool for the facilitation of early diagnosis of con-

junctivitis due to the infestation of the eyes by the sheep nasal 

botfly in two patients.

Case reports

Case 1
A 27-year- old male was standing outdoors when suddenly he 

felt an insect hit his left eye at high velocity. Soon afterwards 

he complained of a stinging sensation, pain and uncontrol-

lable tearing. Upon arrival at the clinic an hour after this inci-

dent, the patient seemed anxious. His eye was covered with 

his hand. Physical examination disclosed a red left eye with 

swollen and erythematous palpebra and profuse epiphora. 

The conjunctivae were fiery red and the bulbar conjunctiva 

demonstrated significant flushing with ciliary injection. At 

first, with unassisted examination any trigger or cause lead-

ing to this condition was hardly discernible. However, after 

administering topical anesthetic drops and applying polarized 

dermatoscopic inspection, a number of larvae were observed 

escaping the light shone across the eye surface and crawling 

into the conjunctival fornices (Figure 1). A smartphone was 

mounted onto the eyepiece of the dermatoscope and the zoom 

photography mode enabled further magnification. With a cot-

ton swab applicator under the illumination of the device, six 

larvae were removed and placed in formalin. The abundance 

Figure 1. Solitary horizontal Oestrus ovis larva in the conjunctival 

fornix of the left eye. Zoom photography from smartphone mounted 

over a Dermlite 3 (trademark) polarized dermatoscope. (Copyright: 

©2014 Naimer et al.)

Figure 2. Group of larvae gathered in the inner canthus of conjunc-

tiva. Notice the streak of pus accumulated to in the gutter to the left. 

(Copyright: ©2014 Naimer et al.)



Observation  |  Dermatol Pract Concept 2014;4(4):19 87

summarizing 21 cases in which the maximum number of 

organism found were seven [17].

In conclusion, the observed cases represent one of several 

reports of ophthalmomyiasis in the Middle East caused by 

O. ovis. However, we have introduced a novel, readily avail-

able tool to facilitate diagnosis and treatment. Inhabitants 

and visitors in endemic regions are all vulnerable to eye 

infestation by fly larvae, and health care providers need 

to include this condition in their differential diagnosis of 

anterior segment inflammatory disorders. The dermatoscope 

can serve as a loyal companion to assist treating such cases 

especially in remote areas.

References
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cotton wool applicator using a full scale slit lamp. Again an 

occlusive ocular dressing was left in position after antibiotic 

ointment application. The following day the patient reported 

that his symptoms had improved significantly.

In both cases the larvae were examined under a stereo 

microscope and using morphological characteristics [12] they 

were identified as the first instar larvae of the sheep nasal 

botfly, Oestrus ovis (Figure 3).

Discussion

Despite its original indication for use in delineating and char-

acterizing pigmented skin lesions, the recent introduction of 

the polarized dermatoscope allows thorough examination 

with full illumination of the eye. The further advantage of a 

convenient portable device, which can, in selected instances, 

be used instead of the slit lamp in these remote rural loca-

tions where such infestations most commonly opportune. 

Dermatoscopy for use over the various surfaces of the body 

holds a vast number of advantages. In particular, the numer-

ous uses of polarized dermatoscopy in ophthalmology have 

been reported [13,14]. For instance, a portable utensil in 

its format, as opposed to the slit lamp which is static and 

demands the patient sit in front of the examiner, will enable 

patient examination while lying on a bed. This is a great 

benefit specifically for subjects who react with fear to dis-

comfort and eye manipulation and procedures with vasovagal 

syncopal reactions [15]. This is the first report of dermato-

scopic use in diagnosis of this condition. Slit lamp is the rule 

for diagnosis of ophthalmomyiasis in all reports in the past 

[16]. The consequences of a late and delayed diagnosis are 

obvious, therefore the clinical approach noted in previously 

reported cases highlight the importance of prompt diagnosis 

and speedy intervention. In our patients this is exemplified by 

the relatively mild clinical presentations before the onset of 

complications and their rapid recovery. Furthermore a unique 

characteristic witnessed in the present cases was the stagger-

ing number of larvae involved after a very brief exposure to 

the fly itself. The largest recently reported series from Libya 

Figure 3. First instar larva of the sheep nasal botfly (Oestrus ovis). 

(Copyright: ©2014 Naimer et al.)

http://www.ncbi.nlm.nih.gov/pubmed/12420086
http://www.ncbi.nlm.nih.gov/pubmed/12420086
http://www.researchgate.net/researcher/39181248_Anita_Pandey
http://www.researchgate.net/researcher/34974705_Molly_Madan
http://www.researchgate.net/researcher/21393752_Ashish_K_Asthana
http://www.ncbi.nlm.nih.gov/pubmed/?term=Elmazar HM%5Bauth%5D
http://www.ncbi.nlm.nih.gov/pubmed/?term=Essa AB%5Bauth%5D